A head-mounted device (HMD) is configured to perform depth detection with a stereo camera pair comprising a first camera and a second camera, both of which are configured to detect/capture visible light and IR light. The fields of view for both of the cameras overlap to form an overlapping field of view. The HMD also includes an IR dot-pattern illuminator that is mounted on the HMD with the cameras and that is configured to emit an IR dot-pattern illumination. The IR dot-pattern illuminator emits a dot-pattern illumination that spans at least a part of the overlapping field of view. The IR dot-pattern illumination adds texture to objects in the environment and enables the HMD to determine depth for those objects, even if they have textureless/smooth surfaces.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A method for performing geometric surface reconstruction in conjunction with head tracking, the method being performed by a head-mounted device (HMD), the method comprising: at a first selected frame rate, performing at least the following: using a head tracking stereo camera pair of the HMD to obtain visible light images of a surrounding environment of the HMD, wherein the head tracking stereo camera pair includes a first camera and a second camera that are both configured to sense infrared (IR) light and visible light; and using the visible light images of the surrounding environment to track a position of the HMD within the surrounding environment; and at a second selected frame rate, performing at least the following: causing an IR dot-pattern illuminator of the HMD to emit an IR dot-pattern illumination onto at least a part of the surrounding environment; causing the head tracking stereo camera pair to sense reflected IR light which is reflected as a result of the IR dot-pattern illumination being emitted onto at least the part of the surrounding environment; calculating a depth map using stereo depth imaging, the depth map being based on the reflected IR light and visible light captured by the head tracking stereo camera pair; and constructing a geometric surface for at least the part of the surrounding environment using the depth map.
2. The method of claim 1 , wherein the second selected frame rate is lower than the first selected frame rate such that sensing the reflected IR light at the second selected frame rate is interleaved during operations of obtaining the visible light images of the surrounding environment at the first selected frame rate.
3. The method of claim 2 , wherein the first selected frame rate is at least 15 frames per second and wherein the second selected frame rate is at least 0.5 frame per second.
4. The method of claim 1 , wherein a part of a field of view of the first camera overlaps a part of a field of view of the second camera to form an overlapping region, and wherein a part of the IR dot-pattern illumination is emitted onto the overlapping region.
5. A head-mounted device (HMD) configured for performing geometric surface reconstruction in conjunction with head tracking, the HMD comprising: a head tracking stereo camera pair comprising a first camera and a second camera which are both mounted on the HMD, wherein: a part of a field of view of the first camera overlaps with a part of a field of view of the second camera to form an overlapping region; and both of the first camera and the second camera are configured to detect both visible light and infrared (IR) light; an IR dot-pattern illuminator mounted on the HMD and configured to emit an IR dot-pattern illumination that spans an illumination area that overlaps at least a part of the overlapping region; one or more processors; and one or more computer-readable hardware storage devices having stored thereon computer-executable instructions, the computer-executable instructions being executable by the one or more processors to cause the HMD to: at a first selected frame rate, perform at least the following: use the head tracking stereo camera pair to obtain visible light images of a surrounding environment of the HMD; and use the visible light images of the surrounding environment to track a position of the HMD within the surrounding environment; and at a second selected frame rate, perform at least the following: cause the IR dot-pattern illuminator to emit an IR dot-pattern illumination onto at least a part of the surrounding environment; cause the head tracking stereo camera pair to sense reflected IR light which is reflected as a result of the IR dot-pattern illumination being emitted onto at least the part of the surrounding environment; calculate a depth map using stereo depth imaging, the depth map being based on the reflected IR light and visible light captured by the head tracking stereo camera pair; and construct a geometric surface for at least the part of the surrounding environment using the depth map.
6. The HMD of claim 5 , wherein the IR dot-pattern illuminator is positioned between the first camera and the second camera.
7. The HMD of claim 5 , wherein the IR dot-pattern illuminator is positioned closer to the first camera than to the second camera.
8. The HMD of claim 5 , wherein a distance between the first camera and the second camera on the HMD constitutes a baseline, and wherein the baseline is at least 4 centimeters.
9. The HMD of claim 5 , wherein the illumination area overlaps at least 30% of the overlapping field of view region.
10. The HMD of claim 5 , wherein the IR dot-pattern illuminator refrains from emitting the IR dot-pattern illumination while the head tracking stereo camera pair obtains the visible light images of the surrounding environment of the HMD.
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March 22, 2018
March 9, 2021
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